EA016949B1 - Pipeline for transport of gas - Google Patents

Abstract

Pipeline for transportation of gas, for which the supplying pressure for the gas out through an outlet shall not exceed a threshold value, where the pipeline comprises a safety unit with a pressure transmitter and a temperature transmitter arranged in connection to the pipeline close to an inlet of the pipeline, distinguished in that the safety unit comprises a device for measuring the flow rate and the safety unit is either used for maintaining an increased inlet pressure to the pipeline and/or in order to use a pipeline with a reduced inner diameter, within a given safety level against leakage and excessive pressure.

Description

FIELD OF THE INVENTION

The invention relates to pipelines for transporting gas. More specifically, the invention relates to gas pipelines that must be operated with a given level of safety for increased pressure and gas leakage from the pipeline, even if this pipeline is connected to a pressure source that can create a pressure in the pipeline that exceeds the established design standards.

State of the art

According to the instructions, gas pipeline operators must operate the pipelines so that the risk of gas leaks within one year is within the specified safety level. These instructions are different in different countries, but in all cases they establish requirements for the operation of gas pipelines. For a typical safety level, the annual probability of leaks and exceeding the set pressure within the permissible value of 2 bar should be less than 1x10 ^-3 . This level of safety is common to all sources of high pressure and all situations that may arise during pipeline operation. To fulfill the requirements of the instructions, the pipeline contains a safety device or a safety unit. Elements that can be used with a safety device must meet the requirements of reliability that meets the specified level of safety. The present invention is based on the fact that the gas pipeline and all safety-determining equipment must be within a given general level of safety, therefore such methods and elements that cannot provide the specified level of safety are inappropriate. There are a number of automated control systems and leak detection systems that are not suitable for use in a safety device associated with gas pipelines.

Known gas line safety devices use pressure and temperature measurements. Safety devices are not previously known in which, in addition, a flow measurement at the inlet of the gas pipeline is used. The compressibility of the gas leads to the absence of a direct relationship between flow, pressure and temperature in the pipeline with the state of the medium emerging from this pipeline. Therefore, safety devices for a pipeline transporting a liquid are not suitable for a pipeline transporting gas.

Typically, a gas pipeline is connected to an existing pipeline system, and the pressure of the gas leaving the gas pipeline does not exceed a predetermined threshold value that is permissible in accordance with the technical conditions specified for the pipeline system into which gas is supplied from the pipeline. The connection of the pipeline and the pipeline system is usually carried out using the so-called connection with a hot insert (insert into a working pipeline). The objective of the invention is to provide a gas pipeline, which, in particular, is suitable for connection to the existing pipeline system in accordance with the above specifications.

Disclosure of invention

This problem has been solved in a pipeline for transporting gas, in which the supply pressure of the gas exiting through its outlet must not exceed a threshold value containing a safety device with a pressure sensor and a temperature sensor installed on the pipeline near its inlet, while the safety device contains a flow measuring device and designed either to maintain increased pressure at the inlet to the pipeline and / or to enable the use of a pipeline with reduced internal their diameter within a predetermined security level of leakage and increased pressure.

The term specified level of safety for leaks and high pressure means that the supply pressure of the gas leaving the pipeline through its outlet should not exceed a threshold value and there should be no leakage from the pipeline within the specified probability established by the safety level. Preferably, such a level of safety is ensured that the annual probability of exceeding a predetermined supply pressure at the outlet of the pipeline, typically within 2 bar, for all sources of pressure, emergency situations and leaks from the pipeline itself should be less than 1x10 ^-3 , preferably less than 1x10 ^-5 .

In a preferred embodiment of the invention, the flow measurement device is a venturi pipe located at or near the inlet of the pipeline. Preferably, the safety device is controllably connected to at least two safety valves installed in series in the pipeline, near the inlet or inlet of the pipeline. The safety device is controlled in accordance with an algorithm according to which the calculation of the pressure at the outlet of the pipeline is based only on measurements of pressure, temperature and flow at the inlet or near the inlet of the pipeline.

An advantage of the invention is that it is possible to increase the productivity of an existing gas pipeline or a new pipeline of a smaller diameter can be constructed in comparison with a previously used gas pipeline containing a safety device. This has a significant technical and economic advantage for the pipeline operator and operators accordingly.

- 1 016949 industrial field piping systems and trunk pipeline systems.

The implementation of the invention

The flow meter can be used for commercial gas metering if it is sufficiently reliable verified, has high accuracy and reliably provides a predetermined level of safety. There are commercial ultrasonic flow meters, Coriolis flow meters and differential pressure gauges located on the narrowed part of the gas pipeline, such as a Venturi pipe. It should be noted that at present only devices with Venturi pipes meet the limits of the level of safety required when used in the North Sea. A pressure sensor, a temperature sensor or a pressure sensor in the form of a venturi is connected to a safety device, at the same time the pressure sensor is connected to a gas pipeline, which is also connected to a safety device. The flow rate can be set directly from the venturi or determined using a safety device. The safety device is connected to at least two, preferably at least three, safety valves installed in the gas pipeline, at or near the entrance to the gas pipeline. In addition, the safety device is preferably connected to a gas turbine installation or other pressure source for the gas pipeline, and the set value of the adjustable value for the specified source is controlled using signals from the safety device. Using a suitable algorithm, the safety device takes into account the dynamic properties of the gas flowing inside the gas pipeline. Therefore, it is possible to maintain a given level of security without using an integrated control and measuring system with measurements at the inlet of the gas pipeline and along the gas pipeline itself. This, in turn, significantly saves costs. All elements inside the gas pipeline, the safety device and connecting devices can, in turn, be known, but it is their combination in the safety device, which ensures the functioning of the gas pipeline within the specified safety level, which allows to obtain an unexpected technical result. An increase in the productivity of existing pipelines is possible since a higher gas inlet pressure can be used. The diameter of new gas pipelines can be reduced, resulting in significant savings in capital costs. You can simultaneously increase the inlet pressure and reduce the internal diameter of the gas pipeline, while being within the general level of safety.

The algorithm used by the safety device may be known. However, this algorithm must comply with the parameters, including the parameters of the gas pipeline in each case. To simulate the operation of the algorithm in various working situations, including, for example, blocking the flow inside the gas pipeline with hydrates and a significant increase in flow rate, flow rate control programs such as OSA and Nu8U8 should be used to make sure that the maximum allowable pressure inside the pipeline provided by the design standards , and the maximum allowable pressure at the outlet of the pipeline is not exceeded. The algorithm must be checked to avoid blocking the pipeline with a safety device in the absence of such a need, and at the same time, if the overlap has occurred, it should not lead to the creation of increased pressure inside the pipeline either relative to the design standards or relative to the outlet pressure, staying within specified security level. The algorithm is usually constructed using dependencies in the form of polynomials for flow, pressure and temperature, at their given constant dimension and with the regulation of these parameters in time within specified limits.

A description of the safety systems and safety devices in accordance with the present invention can be found in EPO O8-P 101. Existing safety systems are based on duplicate downstream pressure measurements and triple redundancy of telemetry equipment, as well as on the functioning of pipelines with full design pressure throughout the length or pipelines of large diameter to avoid exceeding the gas transportation pressure of the permissible pressure for existing piping systems, dressing downstream.

Existing pipelines are becoming more and more complex with the constant addition of new branches to them. The further development of transport networks in the form of pipeline systems is hindered by sophisticated telemetry equipment and a difficult assessment of reliability. The present invention provides reliable flow measurement in addition to an existing safety system. This creates various advantages, since the pressure in a dangerous place in the gas pipeline is accurately estimated as far as possible by means of a safety system instead of measuring the indicated pressure. In addition, there is no need to measure pressure under water using a connection unit. In addition, volumetric devices for telemetric measurements are not used, which also has an economic effect. For existing transportation systems, the pressure at which gas is transported through the pipeline can be increased in excess of the maximum pressure allowed in the connected downstream pipeline system, thereby increasing gas transportation through the pipeline. For new systems can be reduced

- 2 016949 internal diameter of the pipeline, which significantly reduces the need for investment.

For example, a gas pipeline with a length of 130 km is planned from the semi-submersible platform O) 0a to the ELBB pipeline system. The gas pipeline will be connected to the ELBB system by means of hot tapping together with the Tatrep Ypk pipeline. Then the gas is sent to B1.Egts8 in the UK for further processing and disposal to consumers. By using a pipeline for transporting gas equipped with a safety device in accordance with the present invention, the internal cross-section of the pipeline can be reduced by 20%, for example, by reducing the internal diameter from 720 to 660 mm. This will result in savings of NOK 95 million on the pipeline itself. However, if it is advisable for the operation of the platform O) 0a and adjacent sectors, as an alternative solution, the internal diameter of the pipeline equal to 720 mm can be saved, while the flow through the pipeline is increased, while the transported amount of gas can be increased by fifteen%. Alternatively, the inner diameter can be slightly reduced, while the transported amount of gas is slightly increased within a given safety level.

The technical result achieved by the present invention will vary significantly and must be calculated for each specific case. If the resulting benefit from increased gas transportation and / or reduced pipeline diameters exceeds the investment in the pipeline construction in accordance with the invention, the invention provides an economic effect.

Claims (4)

1. A gas pipeline containing an inlet and outlet and designed to connect to an existing pipeline system and to supply gas to this pipeline system through its outlet, characterized in that it contains a safety device located near the inlet of the pipeline and containing a pressure measuring device inside or near the entrance the pipeline, a device for measuring temperature inside or near the inlet of the pipeline and a device for measuring flow inside or near the inlet of the pipeline, while the safety device It is possible to estimate the pressure at the outlet of the pipeline based on measurements of pressure, temperature and flow rate inside or near the inlet of the pipeline, measured by measuring devices, ensuring that the pressure of the gas supplied from the pipeline to the pipeline system through the outlet of the pipeline is lower than a predetermined value. 2. The pipeline according to claim 1, characterized in that the flow measurement device is made in the form of a venturi. 3. The pipeline according to claim 1, characterized in that the safety device is connected to at least two safety valves installed in series at the inlet of the pipeline or near the inlet of the pipeline. 4. The pipeline according to claim 1, characterized in that the safety device is controllable in accordance with an algorithm that takes into account the dynamic properties of the gas. 5. The pipeline according to claim 1, characterized in that the measured input parameters include pressure, temperature and flow rate near the inlet of the pipeline, and the output parameters include a predetermined value of a controlled variable for a gas compressor supplying gas to the pipeline, and control signals for three safety valves, installed sequentially at the inlet of the pipeline or near the entrance of the pipeline. 6. The pipeline according to claim 1, characterized in that the safety device is connected to a gas turbine installation or other pressure source for the pipeline, while the gas turbine installation or other pressure source is adjustable using signals from the safety device. 7. The pipeline according to claim 1, characterized in that the safety device is controllable in accordance with an algorithm constructed using dependencies in the form of polynomials for flow, pressure and temperature. 4 ^ 8) Eurasian Patent Organization, EAPO Russia, 109012, Moscow, Maly Cherkassky per., 2